Mechanism of release factor–mediated peptidyl-tRNA hydrolysis on the ribosome

Elena V. Aleksandrova; Egor A. Syroegin; Ritwika S. Basu; Alexander A. Vassilevski; Matthieu G. Gagnon; Yury S. Polikanov

doi:10.1126/science.ads9030

Mechanism of release factor–mediated peptidyl-tRNA hydrolysis on the ribosome

Elena V. Aleksandrova
, Egor A. Syroegin
, Ritwika S. Basu
, Alexander A. Vassilevski
, Matthieu G. Gagnon
, Yury S. Polikanov

Microbiology And Immunology

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Translation termination is essential in all living organisms because it ensures that proteins have lengths strictly defined by their genes. This universal process is mediated by peptide release factors (RFs) that recognize stop codons and catalyze the hydrolysis of peptidyl transfer RnA (peptidyl-tRnA) on the ribosome, presumably by activating a water molecule. We report structures of the bacterial ribosome in complex with peptidyl-tRnA and RFs in the prepeptide release state. no hydrolytic water molecule was seen in the peptidyl transferase center. Instead, RFs induced rearrangements of the peptidyl-tRnA adenine 76 (A76) ribose pucker that orient the 2́-OH for the nucleophilic attack onto the neighboring carbonyl group. These findings suggest a catalytic mechanism of RF-mediated peptide release and provide a structural basis for the universal conservation of the catalytic domain in peptide RFs.

Original language	English (US)
Article number	eads9030
Journal	Science
Volume	388
Issue number	6753
DOIs	https://doi.org/10.1126/science.ads9030
State	Published - Jun 19 2025

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title = "Mechanism of release factor–mediated peptidyl-tRNA hydrolysis on the ribosome",

abstract = "Translation termination is essential in all living organisms because it ensures that proteins have lengths strictly defined by their genes. This universal process is mediated by peptide release factors (RFs) that recognize stop codons and catalyze the hydrolysis of peptidyl transfer RnA (peptidyl-tRnA) on the ribosome, presumably by activating a water molecule. We report structures of the bacterial ribosome in complex with peptidyl-tRnA and RFs in the prepeptide release state. no hydrolytic water molecule was seen in the peptidyl transferase center. Instead, RFs induced rearrangements of the peptidyl-tRnA adenine 76 (A76) ribose pucker that orient the {\'2}-OH for the nucleophilic attack onto the neighboring carbonyl group. These findings suggest a catalytic mechanism of RF-mediated peptide release and provide a structural basis for the universal conservation of the catalytic domain in peptide RFs.",

author = "Aleksandrova, \{Elena V.\} and Syroegin, \{Egor A.\} and Basu, \{Ritwika S.\} and Vassilevski, \{Alexander A.\} and Gagnon, \{Matthieu G.\} and Polikanov, \{Yury S.\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 the authors, some rights reserved.",

year = "2025",

month = jun,

day = "19",

doi = "10.1126/science.ads9030",

language = "English (US)",

volume = "388",

journal = "Science",

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T1 - Mechanism of release factor–mediated peptidyl-tRNA hydrolysis on the ribosome

AU - Aleksandrova, Elena V.

AU - Syroegin, Egor A.

AU - Basu, Ritwika S.

AU - Vassilevski, Alexander A.

AU - Gagnon, Matthieu G.

AU - Polikanov, Yury S.

PY - 2025/6/19

Y1 - 2025/6/19

N2 - Translation termination is essential in all living organisms because it ensures that proteins have lengths strictly defined by their genes. This universal process is mediated by peptide release factors (RFs) that recognize stop codons and catalyze the hydrolysis of peptidyl transfer RnA (peptidyl-tRnA) on the ribosome, presumably by activating a water molecule. We report structures of the bacterial ribosome in complex with peptidyl-tRnA and RFs in the prepeptide release state. no hydrolytic water molecule was seen in the peptidyl transferase center. Instead, RFs induced rearrangements of the peptidyl-tRnA adenine 76 (A76) ribose pucker that orient the 2́-OH for the nucleophilic attack onto the neighboring carbonyl group. These findings suggest a catalytic mechanism of RF-mediated peptide release and provide a structural basis for the universal conservation of the catalytic domain in peptide RFs.

AB - Translation termination is essential in all living organisms because it ensures that proteins have lengths strictly defined by their genes. This universal process is mediated by peptide release factors (RFs) that recognize stop codons and catalyze the hydrolysis of peptidyl transfer RnA (peptidyl-tRnA) on the ribosome, presumably by activating a water molecule. We report structures of the bacterial ribosome in complex with peptidyl-tRnA and RFs in the prepeptide release state. no hydrolytic water molecule was seen in the peptidyl transferase center. Instead, RFs induced rearrangements of the peptidyl-tRnA adenine 76 (A76) ribose pucker that orient the 2́-OH for the nucleophilic attack onto the neighboring carbonyl group. These findings suggest a catalytic mechanism of RF-mediated peptide release and provide a structural basis for the universal conservation of the catalytic domain in peptide RFs.

UR - https://www.scopus.com/pages/publications/105009098219

UR - https://www.scopus.com/pages/publications/105009098219#tab=citedBy

U2 - 10.1126/science.ads9030

DO - 10.1126/science.ads9030

M3 - Article

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AN - SCOPUS:105009098219

SN - 0036-8075

VL - 388

JO - Science

JF - Science

IS - 6753

M1 - eads9030

ER -

Mechanism of release factor–mediated peptidyl-tRNA hydrolysis on the ribosome

Abstract

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